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result(s) for
"Animals Juvenile literature"
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Where animals live
Describes different continents where animals live and how they live where they can find food.
Book
Animals : black and white
While one page presents specific information which serves as a clue to the identity of a particular black and white animal, the next page reveals the name of the animal.
Book
Creepy Crawlies and the Scientific Method
The updated version of the popular guide to insects and the scientific method.
eBook
A closer look at the animal kingdom
Introduces the animal kingdom, describes the physical characteristics of invertebrates and vertebrates, and discusses how the different species are classified.
Book
Smaller species but larger stages
Global warming can alter size distributions of animal communities, but the contribution of size shifts within versus between species to such changes remains unknown. In particular, it is unclear if expected body size shrinkage in response to warming, observed at the interspecific level, can be used to infer similar size shifts within species. In this study, we compare warming effects on interspecific (relative species abundance) versus intraspecific (relative stage abundance) size structure of competing consumers by analyzing stage-structured bioenergetic food web models consisting of one or two consumer species and two resources, parameterized for pelagic plankton. Varying composition and temperature and body size dependencies in these models, we predicted interspecific versus intraspecific size structure across temperature. We found that warming shifted community size structure toward dominance of smaller species, in line with empirical evidence summarized in our review of 136 literature studies. However, this result emerged only given a size–temperature interaction favoring small over large individuals in warm environments. In contrast, the same mechanism caused an intraspecific shift toward dominance of larger (adult) stages, reconciling disparate observations of size responses within and across zooplankton species in the literature. As the empirical evidence for warming-driven stage shifts is scarce and equivocal, we call for more experimental studies on intraspecific size changes with warming. Understanding the global warming impacts on animal communities requires that we consider and quantify the relative importance of mechanisms concurrently shaping size distributions within and among species.
Journal Article
Powerful predators
Natures top hunters range from the massive polar bear to the (relatively) small praying mantis. But they all have one thing in common: They're built to kill. This book brings readers right into the action.
Book
Nestwork
As more and more species fall under the threat of extinction, humans are not only taking action to protect critical habitats but are also engaging more directly with species to help mitigate their decline. Through innovative infrastructure design and by changing how we live, humans are becoming more attuned to nonhuman animals and are making efforts to live alongside them. Examining sites of loss, temporal orientations, and infrastructural mitigations, Nestwork blends rhetorical and posthuman sensibilities in service of the ecological care. In this innovative ethnographic study, rhetorician Jennifer Clary-Lemon examines human-nonhuman animal interactions, identifying forms of communication between species and within their material world. Looking in particular at nonhuman species that depend on human development for their habitat, Clary-Lemon examines the cases of the barn swallow, chimney swift, and bobolink. She studies their habitats along with the unique mitigation efforts taken by humans to maintain those habitats, including building “barn swallow gazebos” and artificial chimneys and altering farming practices to allow for nesting and breeding. What she reveals are fascinating forms of rhetoric not expressed through language but circulating between species and materials objects. Nestwork explores what are in essence nonlinguistic and decidedly nonhuman arguments within these local environments. Drawing on new materialist and Indigenous ontologies, the book helps attune our senses to the tragedy of species decline and to a new understanding of home and homemaking.
eBook
Peek-a-boo
This look & learn board book introduces the peek-a-boo game using pictures of animals and their babies.
Book
The crown-of-thorns seastar species complex: knowledge on the biology and ecology of five corallivorous Acanthaster species
Coral-eating crown-of-thorns seastars (CoTS,
Acanthaster
spp.) are major contributors to the coral reef crises across the Indo-Pacific region. Until recently, CoTS throughout the Indo-Pacific were regarded to be a single species,
Acanthaster planci
. However, genetic and morphological analyses demonstrated that there are at least four distinct species:
Acanthaster benziei
in the Red Sea,
Acanthaster mauritiensis
and
A. planci
in the Indian Ocean, and
Acanthaster
cf.
solaris
in the western Pacific.
Acanthaster
cf.
ellisii
in the eastern Pacific needs more taxonomic attention. Here, we review the biological knowledge for each species adapting a pragmatic geographical species definition and using a systematic literature review complemented with more focused searches for individual species. The vast majority of CoTS research (88%) was conducted on
A.
cf.
solaris
, with much of this research undertaken on the Great Barrier Reef or in Japan. Many studies of
A.
cf.
solaris
are focused on monitoring or documenting incidences of outbreaks, though there is a solid base of knowledge on larval, juvenile and adult ecology derived from field and laboratory experiments. By contrast, most of the published studies on the four remaining species simply document cases of population outbreaks. The major taxonomic bias in CoTS research constitutes a significant limitation for understanding and managing these species for two reasons. First, even for
A.
cf.
solaris
, which is the most studied species, limited fundamental knowledge of their biology and ecology constrains understanding of the drivers of outbreaks and hinders corresponding management actions for prevention and control of these events. Second, understanding and management of other species are predicated on the assumption that all CoTS species have similar biology and behaviour, an unsatisfying assumption for ecosystem management.
Journal Article